DE275067C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 275067 CLASS 47h. GROUP

in GISBORNE _; New Zealand.

Pulley change transmission. Patented in the German Empire on July 18, 1912.

The invention relates to a change gear for belt or cable transmission.

According to the invention, the drive roller is composed of a pair of disks, whose inner surfaces are inclined and form a V-shaped groove into which the drive belt fits. One of these disks can be slid against the other in order to widen the groove or to be able to narrow. This allows the ίο rope or belt with different diameters Attack on the pulley, which enables different forces and speeds transferred to.

The invention consists in particular in the design of the device with which the pulley can be set to compensate for the required belt length when changing the diameter of the pulley. this is caused by the disc, which is simultaneously with the decrease or increase in size their diameter from the rear wheel or towards the same. emotional.

On the drawing show:

Fig. Ι a front view of the entire device,

Fig. 2 is a side view of the transmission,

Fig. 3 is a rear view of the same,

4 shows a longitudinal section through the pulley and the parts adjusting it,
5 shows a cross section along line xx in FIG. 4, and

6, 7 and 8 details of the device.

In the present invention, the ordinary engine casing 1 is provided with an end plate 2 provided, which is placed on the same and between itself and the housing wall forms a gap. This plate is held firmly on the housing, but in such a way that rotation of the plate is enabled. This can be done in any suitable manner, such as B. by the means shown in the drawing, by the edge of the disc 2 to a flange 3 is formed, via which a screw bolt to the engine housing 5 connected ring 4 engages.

The pulley consists of two pulleys 6, 7, both of which have an inclined inner surface own. These pulleys together form a pulley with a V-shaped groove. As Fig. 4 shows, the inner disc 6 is rotatably mounted on the sleeve 8 of the plate 2 and is extended outward into a hub 9 on which the disc 7 is placed so that she can move in and out freely. The inner side surface of the disc 6 is with a Ring of recesses 10 provided near the hub 9 (Fig. 5), and has the outer disc on its inner surface a corresponding number of teeth 11, which in these recesses 10 engage, whereby the two discs are coupled when the outer Disk 7 is moved inward. If, on the other hand, the outer disk is moved outwards, in this way the inner disk becomes free and can also rotate freely.

The sleeve 13 of the outer disc 7 is threaded onto the end of a

Spindle 12 placed, which goes right through the bearing 8. This spindle is shown in Fig. 6 in View and shown in Fig. 7 in end view. The housing 13 is thereby with this spindle rotatably connected that it is between shoulder 14 of the latter and ring nut 15 is included, suitable ball bearings are provided with balls 16 to the Disc on the spindle free rotation

ίο to allow.

A square rod 17 goes through the spindle 12, which is in a correspondingly shaped Bore fits. The inner end of this rod has an enlarged square head 18 provided which fits into an arcuate groove 19 on the engine housing 1 (Fig. 3). This head is held in the groove by means of the spring 20 and serves to hold the rod 17 and to secure the spindle 12 against rotation, while it is back and forth in groove 19 can move forward.

The spindle 12 is surrounded by an internally threaded sleeve 21, the The end protrudes into the cavity formed by the face plate 2 and there with teeth 22 is provided. A toothed arch 23 is arranged concentrically to the groove 19 on the housing 1 and attached. This dental arch is in engagement with the ring gear 22 and serves to cause this and the sleeve 21 to rotate about their own axis when Plate 2 swung in the manner intended and described below will.

The rotation of this sleeve 21 will therefore force the spindle 12 due to the screw engagement between the spindle and the bushing along the rod 17 inwards or move outside. As a result, the outer disk 7 of the drive roller is against the inner one Disk 6 or moved away from it, depending on the direction of rotation of the sleeve, which then the V-shaped incision between the discs is widened or narrowed. The inner one Washer 6 is screwed onto a second sleeve 24, which is between the sleeve 21 and the bearing 8 is between which it can rotate freely. The inner end of this Bush is with a sprocket 25, which is in the space formed by the face plate 2 is provided. Its outer end is designed so that it is the outer end of the sleeve 21 overlaps a little and protects it against lateral longitudinal displacement. Between the bearing and the disk 6 on the one hand and the bearing 8 and the sprocket 25 on the other hand suitable ball bearings with balls 26 are arranged.

The drive shaft of the machine comes from the center of the engine housing 1 (Fig. 2) and carries a chain pulley 27 on its end. Via this and chain wheel 25 runs a chain 28, which so the movement of the machine on the inner disc 6 of the drive roller transmits. Therefore, when the outer disc is engaged with the inner one, so run both pulleys together and drive the belt or the between them Rope. If the outer disc is moved all the way out and the inner disc is released, so the belt rests on the projections 11, whereby the inner pulley can run freely.

The rotational movement of the sleeve 21 for adjusting the spindle 12 is, as mentioned, of causes the disc 2, which takes the gear mechanism with it and causes the gear 22, to unroll on the dental arch 23. The forward movement of the plate serves to to rotate the sleeve so that the spindle 12 moves outward and thereby the drive diameter the pulley is reduced, while the reverse movement serves to move the pulley 7 inward and so to increase the diameter.

In order to move the plate 2 forward, suitable means are provided, while the Backward movement is made dependent on the pull on the drive belt. These means are shown in Fig. 1. They consist of one Arm 29 which is rotatably seated on a fixed bolt 30 and through rod 31 with plate 2 connected is. This arm is connected to a foot lever 32 by moving it the arm 29 can be pushed forward. The arm 29 swings on a ratchet ring 33 and is provided with a pawl 34 which engages in the ratchet wheel 33 and any backward movement of the arm 29 is prevented. So when the arm is pushed forward is, the pawl engages the ratchet and holds the arm in place. A small foot lever 35 sits rotatably on the tip of the arm and is with the pawl 34 connected. If this lever 35 is pressed down, the pawl is out Engaged and allowed the arm to move back.

If the machine is in operation, the driver must, in order to slow down the speed, move the arm 29 forward by the required amount so as to increase the distance between the two forming the roller Slices to enlarge. In order to increase the speed, the driver must release the pawl 34 and the tension of the drive belt allow plate 2 to be withdrawn, drawing the pulleys closer together and so narrow the V-shaped groove.

With the reduction in the drive diameter of the pulley, it is also removed from the rear wheel moved, whereby what has become limp

Belt piece is tensioned again while increasing the drive diameter brought the role closer to the rear wheel and the change in the required belt length is balanced.

To start the machine, a gear 36 can be mounted in the lower part of the plate 2 be, which is in engagement with a gear 37, which is integral with the sprocket 27 on the end of the machine shaft consists. The spindle of the gear 36 is to receive the starter crank with a Crown toothing provided as a coupling surface. This is necessary if the drive roller is in the condition is that the machine is running freely. To have an independent setting of the role To enable the outer end of the square rod 17 runs into a screw bolt 38, which can be screwed into a key 39 (Fig. 8) that is inserted into the end the spindle bore is used. When the key is screwed in, the rod can 17 is pulled out against the action of the spring 20 and the head 18 is freed from the groove 19 will. The spindle can then be rotated within the sleeve 21 in either direction and so moved inwards or outwards to the pulley in its diameter to adjust. and to regulate the tension of the belt.

The protrusions 11 on the outer disk 7 are of such a length in relation to the thickness of the drive belt that they do not tend to be in engage the recesses of the disc 6 when

until the belt has been gripped by the two pulleys, whereby it is achieved that both discs run together at the same speed and every possibility of Impact when engaging the clutch is avoided.

Claims (1)

Patent claim: Pulley change transmission with a one-piece, fixed and one of two means a spindle adjustable frustoconical pulley, their distance from the fixed pulley simultaneously with the change in the effective pulley diameter is regulated, characterized in that the two-part pulley (6, 7) is eccentric in one on the engine housing is mounted coaxially to the motor shaft rotatable housing (2), and that the spindle nut (21) fixed to the engine housing (1) by means of a toothed wheel arranged dental arch (23) is in engagement, wherein the movable truncated cone (7) seated, in this freely rotatable spindle (12) against rotation a them penetrating angular bolt (17) is secured with a square head engages in an arcuate slot (19) of the engine housing from which it pulled out for the purpose of independent rotation of the spindle against the action of a spring (20) can be. 1 sheet of drawings,